An experimental study on the equation of state of cementitious materials using confined compression tests

Yuri S. Karinski, Semion Zhutovsky, Vladimir R. Feldgun, David Z. Yankelevsky

Research output: Chapter in Book/Report/Conference proceedingConference contributionpeer-review

Abstract

The behavior of concrete under severe loading is of interest, especially for problems like ballistic impact and penetration and near distance explosions, where very high pressures are developed. For these problems the behavior of concrete at very high hydrostatic pressures is of importance. There is very little data available on concrete behavior at that high pressure level. Therefore there is much need for an extensive experimental work in order to provide necessary data and illuminate the rather obscure area of concrete behavior at high pressures. However high pressure controlled testing requires special and expensive equipment, and the testing is associated with a wide variety of technical problems. Recently published experimental data, obtained by utilizing a high-capacity tri-axial press, indicates that concrete that is subjected to high pressures behaves differently than concrete under low uniaxial loading. When uniaxial loading is applied, without any confining pressure, the concrete specimen demonstrates a well-known brittle behavior where failure is caused by a localized damage. Quite to the contrary, at high levels of confining pressures, the concrete behaves like a ductile material, and its failure is associated with diffuse material damage. The experimental data at the very high pressure range is most important to understand the processes of damage evolution that governs the characteristics of the equation of state. This paper presents the development of an experimental setup that is capable of performing confined compression tests of mortar and concrete specimens at high pressures up to 400MPa. The experimental study aims at investigating the effect of water/cement ratio as well as the ratio of fine aggregate on the different branches of the equation of state: active loading and unloading/reloading. The paper presents some of the test results as well as a new equation of state that is based on the multi scale approach. The model is applicable for dry materials; cementitious paste and concrete in which the pores are filled with water should be treated differently to account for the liquid phase.

Original languageEnglish
Title of host publicationConcrete under Severe Conditions - Environment and Loading
EditorsMatteo Colombo, Marco di Prisco
Pages830-836
Number of pages7
DOIs
StatePublished - 2016
Event8th International Conference on Concrete under Severe Conditions - Environment and Loading, CONSEC 2016 - Lecco, Italy
Duration: 12 Sep 201614 Sep 2016

Publication series

NameKey Engineering Materials
Volume711

Conference

Conference8th International Conference on Concrete under Severe Conditions - Environment and Loading, CONSEC 2016
Country/TerritoryItaly
CityLecco
Period12/09/1614/09/16

Keywords

  • Cementitious composite
  • Equation of state
  • Pore size distribution
  • Tri-axial compression test

All Science Journal Classification (ASJC) codes

  • Mechanics of Materials
  • Mechanical Engineering
  • General Materials Science

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